Objective of the build
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Reliability
Only made of high quality hardware with a quality build assembly made at BRS-ENGINEERING. Aluminium brushed plates, Blind joined frame
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Production focused
Ballscrews set to gain repetability, low maintenance, and high precision. 0.6mm Tungsten carbide nozzle for optimal polyvalence. All metal build for the toolhead, PA12CF parts for durability
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Performance oriented
BRS-AWD, +-13000mm*s² of acceleration, Vz extruder + Goliath hotend.
What is inside this machine?
Toolhead
-VZ F3D carriage
-Mellow Goliath Hotend
-Dual Mellow VZ extruder for heavy 8Kg spools
-Moons Nema
-Custom Duct
-Mellow CPAP unit
Frame
-RATRIG 3030 extrusions
-Spannsystem Custom Bed plate
-Optical endstops
-John Steel aluminium custom plates
-750mm 1605 ballscrew
-Gates GT2 belt 9m
-PA12CF15 Fiberlogy Parts set
-Keenovo 600W x4
-Clinko 16A connector
-LDO-42STH48-2504AC x4
-LDO-57STH56 x3
Purchasable Mods
-Z-Upgrade 2.0
-L3VER M2 AWD SKL
-BRS-AWD OF
-CPAP Enclosure
-VZ Joiners
Electronic
-BTT Manta M8p V2
-TMC 2209 24V
-CMA 8go Emmc 32
-350W Meanwell PSU
Bed assembly
Here we start with the bed adaptation, made by SpannSystem in Austria, a 10mm Alu casted bed 635x635mm with embedded magnets, surfaced to a high precision flatness. I choosed 4 silicone heater mat from Keenovo, 600 W each linked in parallel
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Then came the insulation of this 2400W bed, to be as energy efficient as possible? A thermal silicone potting first...
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.. then a full alu-foam cover
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Some PEI tape to close the system. Here can be seen the addition of a full grounded harness capable of handling 16A + the bed thermistance
Frame Assembly
Like the previous Vulcain prototype, I used 30x30 alumium extrusion with a blind join mounting, giving me a quick and effective squareness. Everything is then reinforced with hiden corners, small corners, and the 2x 3mm aluminium plates at 90° add a tremendous stiffness. Note here that found to 40x40 or 30x60 could be a better idea to further increase the overall stiffness along Z
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Frame base
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Countersunk drilling
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Z-Upgrade v2.5 assembly
For this buil a small variation of the Z-Upgrade has been done, since the bed is 18Kg almost; Pin majoration from 3mm to 4mm, Reinforced middle rings. The Oldham mechanism her is capable to withstanc 2.4mm of variation, and as the other Z-Upgrade variation, completly supress any wobbling potential
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AWD inclusion
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NEMA 23 is used for Z to counter any drawback of low maintening torque when motors are off
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BRS-AWD 1.35a
AWD make sense here since we want to have a good acceleration and relay over the belt lenghts
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Last patch here, a reinforced mount to add stifness over the assembly
Gantry, Toolhead, harness
The choice was obvious here: a Vz extruder + Goliath + Vz Carriage over an aluminium tube. The only difficulty was to handle a long harness, with cables, and CPAP Tube.
Gantry
Harness
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A long distance to cover
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I use retractable wires (2) to hold the harness in a correct way to fold itself on motions without hiting anything
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Assembly ends
Once everything has been finished, time to close the assembly of this machine for the first tests
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Wiring done (electronic bay will not be detailed here)
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Screen integration
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Led Integration, first power On
Input Shaper
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X
Some of the artifacts are mainly due to the ADXL345 position. Even if the place wasn't the best, it fits the toolhead and provide a correct reading. As far as it is, I'm OK with those results, considering the 12600 value is quite insane on a 600 machine. Thanks to the AWD.
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Y
Clear unspreaded spike